// ==++== 
//
//   Copyright (c) Microsoft Corporation.  All rights reserved.
//
// ==--== 
/*============================================================
** 
** Class: SerializationEventsCache 
**
** 
** Purpose: Caches the various serialization events such as On(De)Seriliz(ed)ing
**
**
============================================================*/ 

namespace System.Runtime.Serialization { 
 
using System;
using System.Collections; 
using System.Collections.Generic;
using System.Reflection;
using System.Reflection.Cache;
using System.Globalization; 
using System.Diagnostics.Contracts;
 
    internal class SerializationEvents 
    {
        private List<MethodInfo> m_OnSerializingMethods = null; 
        private List<MethodInfo> m_OnSerializedMethods = null;
        private List<MethodInfo> m_OnDeserializingMethods = null;
        private List<MethodInfo> m_OnDeserializedMethods = null;
 
        private List<MethodInfo> GetMethodsWithAttribute(Type attribute, Type t)
        { 
            List<MethodInfo> mi = new List<MethodInfo>(); 
            Type baseType = t;
            // Traverse the hierarchy to find all methods with the particular attribute 
            while (baseType != null && baseType != typeof(Object))
            {
                RuntimeType rt = (RuntimeType)baseType;
                // Get all methods which are declared on this type, instance and public or nonpublic 
                MethodInfo[] mis = baseType.GetMethods(BindingFlags.DeclaredOnly | BindingFlags.Instance | BindingFlags.NonPublic | BindingFlags.Public);
#if _DEBUG 
                bool found = false; 
#endif
                foreach(MethodInfo m in mis) 
                {
                    // For each method find if attribute is present, the return type is void and the method is not virtual
                    if (m.IsDefined(attribute, false))
                    { 
#if _DEBUG
                        Contract.Assert(m.ReturnType == typeof(void) && !m.IsVirtual, "serialization events methods cannot be virtual and need to have void return"); 
 
                        ParameterInfo[] paramInfo = m.GetParameters();
                        // Only add it if this method has one parameter of type StreamingContext 
                        if (paramInfo.Length == 1 && paramInfo[0].ParameterType == typeof(StreamingContext))
                        {
                            if (found)
                                Contract.Assert(false, "Mutliple methods with same serialization attribute"); 
#endif
                            mi.Add(m); 
#if _DEBUG 
                            found = true;
                        } 
                        else
                            Contract.Assert(false, "Incorrect serialization event signature");
#endif
                    } 
                }
#if _DEBUG 
                found = false; 
#endif
                baseType = baseType.BaseType; 
            }
            mi.Reverse();  // We should invoke the methods starting from base

            return (mi.Count == 0) ? null : mi; 
        }
 
        internal SerializationEvents(Type t) 
        {
            // Initialize all events 
            m_OnSerializingMethods = GetMethodsWithAttribute(typeof(OnSerializingAttribute), t);
            m_OnSerializedMethods = GetMethodsWithAttribute(typeof(OnSerializedAttribute), t);
            m_OnDeserializingMethods = GetMethodsWithAttribute(typeof(OnDeserializingAttribute), t);
            m_OnDeserializedMethods = GetMethodsWithAttribute(typeof(OnDeserializedAttribute), t); 
        }
 
        internal bool HasOnSerializingEvents 
        {
            get { return m_OnSerializingMethods != null || m_OnSerializedMethods != null; } 
        }

        internal void InvokeOnSerializing(Object obj, StreamingContext context)
        { 
            Contract.Assert(obj != null, "object should have been initialized");
            // Invoke all OnSerializingMethods 
            if (m_OnSerializingMethods != null) 
            {
                Object[] p = new Object[] {context}; 
                SerializationEventHandler handler = null;
                foreach(MethodInfo m in m_OnSerializingMethods)
                {
                    SerializationEventHandler onSerializing = 
                        (SerializationEventHandler)Delegate.InternalCreateDelegate(typeof(SerializationEventHandler), obj, m);
                    handler = (SerializationEventHandler)Delegate.Combine(handler, onSerializing); 
                } 
                handler(context);
            } 
        }

        internal void InvokeOnDeserializing(Object obj, StreamingContext context)
        { 
            Contract.Assert(obj != null, "object should have been initialized");
            // Invoke all OnDeserializingMethods 
            if (m_OnDeserializingMethods != null) 
            {
                Object[] p = new Object[] {context}; 
                SerializationEventHandler handler = null;
                foreach(MethodInfo m in m_OnDeserializingMethods)
                {
                    SerializationEventHandler onDeserializing = 
                        (SerializationEventHandler)Delegate.InternalCreateDelegate(typeof(SerializationEventHandler), obj, m);
                    handler = (SerializationEventHandler)Delegate.Combine(handler, onDeserializing); 
                } 
                handler(context);
            } 
        }

        internal void InvokeOnDeserialized(Object obj, StreamingContext context)
        { 
            Contract.Assert(obj != null, "object should have been initialized");
            // Invoke all OnDeserializingMethods 
            if (m_OnDeserializedMethods != null) 
            {
                Object[] p = new Object[] {context}; 
                SerializationEventHandler handler = null;
                foreach(MethodInfo m in m_OnDeserializedMethods)
                {
                    SerializationEventHandler onDeserialized = 
                        (SerializationEventHandler)Delegate.InternalCreateDelegate(typeof(SerializationEventHandler), obj, m);
                    handler = (SerializationEventHandler)Delegate.Combine(handler, onDeserialized); 
                } 
                handler(context);
            } 
        }

        internal SerializationEventHandler AddOnSerialized(Object obj, SerializationEventHandler handler)
        { 
            // Add all OnSerialized methods to a delegate
            if (m_OnSerializedMethods != null) 
            { 
                foreach(MethodInfo m in m_OnSerializedMethods)
                { 
                    SerializationEventHandler onSerialized =
                        (SerializationEventHandler)Delegate.InternalCreateDelegate(typeof(SerializationEventHandler), obj, m);
                    handler = (SerializationEventHandler)Delegate.Combine(handler, onSerialized);
                } 
            }
            return handler; 
        } 

        internal SerializationEventHandler AddOnDeserialized(Object obj, SerializationEventHandler handler) 
        {
            // Add all OnDeserialized methods to a delegate
            if (m_OnDeserializedMethods != null)
            { 
                foreach(MethodInfo m in m_OnDeserializedMethods)
                { 
                    SerializationEventHandler onDeserialized = 
                        (SerializationEventHandler)Delegate.InternalCreateDelegate(typeof(SerializationEventHandler), obj, m);
                    handler = (SerializationEventHandler)Delegate.Combine(handler, onDeserialized); 
                }
            }
            return handler;
        } 
    }
 
    internal static class SerializationEventsCache 
    {
        private static Hashtable cache = new Hashtable(); 

        internal static SerializationEvents GetSerializationEventsForType(Type t)
        {
            SerializationEvents events; 
            if ((events = (SerializationEvents)cache[t]) == null)
            { 
                lock(cache.SyncRoot) 
                {
                    if ((events = (SerializationEvents)cache[t]) == null) 
                    {
                        events = new SerializationEvents(t);
                        cache[t] = events; // Add this to the cache.
                    } 
                }
            } 
            return events; 

        } 
    }
}


// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// ==++== 
//
//   Copyright (c) Microsoft Corporation.  All rights reserved.
//
// ==--== 
/*============================================================
** 
** Class: SerializationEventsCache 
**
** 
** Purpose: Caches the various serialization events such as On(De)Seriliz(ed)ing
**
**
============================================================*/ 

namespace System.Runtime.Serialization { 
 
using System;
using System.Collections; 
using System.Collections.Generic;
using System.Reflection;
using System.Reflection.Cache;
using System.Globalization; 
using System.Diagnostics.Contracts;
 
    internal class SerializationEvents 
    {
        private List<MethodInfo> m_OnSerializingMethods = null; 
        private List<MethodInfo> m_OnSerializedMethods = null;
        private List<MethodInfo> m_OnDeserializingMethods = null;
        private List<MethodInfo> m_OnDeserializedMethods = null;
 
        private List<MethodInfo> GetMethodsWithAttribute(Type attribute, Type t)
        { 
            List<MethodInfo> mi = new List<MethodInfo>(); 
            Type baseType = t;
            // Traverse the hierarchy to find all methods with the particular attribute 
            while (baseType != null && baseType != typeof(Object))
            {
                RuntimeType rt = (RuntimeType)baseType;
                // Get all methods which are declared on this type, instance and public or nonpublic 
                MethodInfo[] mis = baseType.GetMethods(BindingFlags.DeclaredOnly | BindingFlags.Instance | BindingFlags.NonPublic | BindingFlags.Public);
#if _DEBUG 
                bool found = false; 
#endif
                foreach(MethodInfo m in mis) 
                {
                    // For each method find if attribute is present, the return type is void and the method is not virtual
                    if (m.IsDefined(attribute, false))
                    { 
#if _DEBUG
                        Contract.Assert(m.ReturnType == typeof(void) && !m.IsVirtual, "serialization events methods cannot be virtual and need to have void return"); 
 
                        ParameterInfo[] paramInfo = m.GetParameters();
                        // Only add it if this method has one parameter of type StreamingContext 
                        if (paramInfo.Length == 1 && paramInfo[0].ParameterType == typeof(StreamingContext))
                        {
                            if (found)
                                Contract.Assert(false, "Mutliple methods with same serialization attribute"); 
#endif
                            mi.Add(m); 
#if _DEBUG 
                            found = true;
                        } 
                        else
                            Contract.Assert(false, "Incorrect serialization event signature");
#endif
                    } 
                }
#if _DEBUG 
                found = false; 
#endif
                baseType = baseType.BaseType; 
            }
            mi.Reverse();  // We should invoke the methods starting from base

            return (mi.Count == 0) ? null : mi; 
        }
 
        internal SerializationEvents(Type t) 
        {
            // Initialize all events 
            m_OnSerializingMethods = GetMethodsWithAttribute(typeof(OnSerializingAttribute), t);
            m_OnSerializedMethods = GetMethodsWithAttribute(typeof(OnSerializedAttribute), t);
            m_OnDeserializingMethods = GetMethodsWithAttribute(typeof(OnDeserializingAttribute), t);
            m_OnDeserializedMethods = GetMethodsWithAttribute(typeof(OnDeserializedAttribute), t); 
        }
 
        internal bool HasOnSerializingEvents 
        {
            get { return m_OnSerializingMethods != null || m_OnSerializedMethods != null; } 
        }

        internal void InvokeOnSerializing(Object obj, StreamingContext context)
        { 
            Contract.Assert(obj != null, "object should have been initialized");
            // Invoke all OnSerializingMethods 
            if (m_OnSerializingMethods != null) 
            {
                Object[] p = new Object[] {context}; 
                SerializationEventHandler handler = null;
                foreach(MethodInfo m in m_OnSerializingMethods)
                {
                    SerializationEventHandler onSerializing = 
                        (SerializationEventHandler)Delegate.InternalCreateDelegate(typeof(SerializationEventHandler), obj, m);
                    handler = (SerializationEventHandler)Delegate.Combine(handler, onSerializing); 
                } 
                handler(context);
            } 
        }

        internal void InvokeOnDeserializing(Object obj, StreamingContext context)
        { 
            Contract.Assert(obj != null, "object should have been initialized");
            // Invoke all OnDeserializingMethods 
            if (m_OnDeserializingMethods != null) 
            {
                Object[] p = new Object[] {context}; 
                SerializationEventHandler handler = null;
                foreach(MethodInfo m in m_OnDeserializingMethods)
                {
                    SerializationEventHandler onDeserializing = 
                        (SerializationEventHandler)Delegate.InternalCreateDelegate(typeof(SerializationEventHandler), obj, m);
                    handler = (SerializationEventHandler)Delegate.Combine(handler, onDeserializing); 
                } 
                handler(context);
            } 
        }

        internal void InvokeOnDeserialized(Object obj, StreamingContext context)
        { 
            Contract.Assert(obj != null, "object should have been initialized");
            // Invoke all OnDeserializingMethods 
            if (m_OnDeserializedMethods != null) 
            {
                Object[] p = new Object[] {context}; 
                SerializationEventHandler handler = null;
                foreach(MethodInfo m in m_OnDeserializedMethods)
                {
                    SerializationEventHandler onDeserialized = 
                        (SerializationEventHandler)Delegate.InternalCreateDelegate(typeof(SerializationEventHandler), obj, m);
                    handler = (SerializationEventHandler)Delegate.Combine(handler, onDeserialized); 
                } 
                handler(context);
            } 
        }

        internal SerializationEventHandler AddOnSerialized(Object obj, SerializationEventHandler handler)
        { 
            // Add all OnSerialized methods to a delegate
            if (m_OnSerializedMethods != null) 
            { 
                foreach(MethodInfo m in m_OnSerializedMethods)
                { 
                    SerializationEventHandler onSerialized =
                        (SerializationEventHandler)Delegate.InternalCreateDelegate(typeof(SerializationEventHandler), obj, m);
                    handler = (SerializationEventHandler)Delegate.Combine(handler, onSerialized);
                } 
            }
            return handler; 
        } 

        internal SerializationEventHandler AddOnDeserialized(Object obj, SerializationEventHandler handler) 
        {
            // Add all OnDeserialized methods to a delegate
            if (m_OnDeserializedMethods != null)
            { 
                foreach(MethodInfo m in m_OnDeserializedMethods)
                { 
                    SerializationEventHandler onDeserialized = 
                        (SerializationEventHandler)Delegate.InternalCreateDelegate(typeof(SerializationEventHandler), obj, m);
                    handler = (SerializationEventHandler)Delegate.Combine(handler, onDeserialized); 
                }
            }
            return handler;
        } 
    }
 
    internal static class SerializationEventsCache 
    {
        private static Hashtable cache = new Hashtable(); 

        internal static SerializationEvents GetSerializationEventsForType(Type t)
        {
            SerializationEvents events; 
            if ((events = (SerializationEvents)cache[t]) == null)
            { 
                lock(cache.SyncRoot) 
                {
                    if ((events = (SerializationEvents)cache[t]) == null) 
                    {
                        events = new SerializationEvents(t);
                        cache[t] = events; // Add this to the cache.
                    } 
                }
            } 
            return events; 

        } 
    }
}


// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
